CN204151218U - A kind of coating line heating system utilizing the high-temperature tail gas producing glass microballon - Google Patents
A kind of coating line heating system utilizing the high-temperature tail gas producing glass microballon Download PDFInfo
- Publication number
- CN204151218U CN204151218U CN201420458439.4U CN201420458439U CN204151218U CN 204151218 U CN204151218 U CN 204151218U CN 201420458439 U CN201420458439 U CN 201420458439U CN 204151218 U CN204151218 U CN 204151218U
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- China
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- butterfly valve
- tail gas
- glass microballon
- coating line
- blower fan
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Abstract
The utility model discloses a kind of coating line heating system utilizing the high-temperature tail gas producing glass microballon, it comprises glass-beam forming furnace (1), tornado dust collector (2), glass microballon dries platform (3), pulsed sack cleaner (4), flue gas blower fan (5), automatic combustion machine (6), hotblast stove (7), tail gas induced draft fan (8) and coating line blower fan (9), the inlet end that exit end and the glass microballon of tornado dust collector (2) dry platform (3) is connected, the exit end that glass microballon dries platform (3) is connected with the inlet end of pulsed sack cleaner (4).The beneficial effects of the utility model are: after being purified by the high-temperature tail gas producing glass microballon generation, for the production of reflective fabric, the opened condition of whether opening hotblast stove additional heat and regulating butterfly valve can be determined according to the heat of tail gas, coating line system is made to reach heat required for it, greatly save energy cost, decrease the consumption of Sweet natural gas.
Description
Technical field
The utility model relates to heating system, particularly a kind of coating line heating system utilizing the high-temperature tail gas producing glass microballon.
Background technology
Glass microballon has the characteristic of retroreflecting, is widely applied in light reflecting material.Adopt the high-speed flame injection glass powder of burner in glass-beam forming process, under the flame of 1200 DEG C of high temperature, glass powder utilizes self surface tension balling-up.The high-temperature tail gas produced is up to 300-450 DEG C, and utilize it to be dried by glass microballon after pickling, the tail gas of discharge, still up to about 200 DEG C, is just got rid of without Appropriate application usually after dust removal process, causes great heat waste.But in reflective fabric production process, need again more heat for drying tackiness agent, need to consume a large amount of Sweet natural gases.
Utility model content
The purpose of this utility model is the shortcoming overcoming prior art, and provide a kind of coating line heating system utilizing the high-temperature tail gas producing glass microballon, it has saved energy cost, decreases the consumption of Sweet natural gas.
The purpose of this utility model is achieved through the following technical solutions: a kind of coating line heating system utilizing the high-temperature tail gas producing glass microballon, and it comprises glass-beam forming furnace, tornado dust collector, glass microballon dries platform, pulsed sack cleaner, flue gas blower fan, automatic combustion machine, hotblast stove, tail gas induced draft fan and coating line blower fan, the exit end of glass-beam forming furnace is connected with the inlet end of tornado dust collector, the inlet end that exit end and the glass microballon of tornado dust collector dry platform is connected, the exit end that glass microballon dries platform is connected with the inlet end of pulsed sack cleaner, the exit end of pulsed jet cloth filter is connected with the inlet end of flue gas blower fan, the air outlet of flue gas blower fan respectively with butterfly valve A, butterfly valve C, butterfly valve D is connected, butterfly valve B, butterfly valve D is connected with the blast inlet of hotblast stove respectively, and the afterbody of hotblast stove is also provided with automatic combustion machine, and the blast inlet of tail gas induced draft fan is connected with the air outlet of hotblast stove and butterfly valve C respectively, the air outlet of tail gas induced draft fan and butterfly valve E, butterfly valve F is connected, and the blast inlet of coating line blower fan is connected with butterfly valve E.
The utility model has the following advantages: the utility model applies to the high-temperature tail gas producing glass microballon generation in the middle of the production of reflective fabric, hotblast stove can be opened according to the heat regulation butterfly switch of high-temperature tail gas, coating line system is made to reach heat required for it, greatly save energy cost, decrease the consumption of Sweet natural gas.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model;
In figure, 1-glass-beam forming furnace, 2-tornado dust collector, 3-glass microballon dries platform, 4-pulsed sack cleaner, 5-flue gas blower fan, 6-automatic combustion machine, 7-hotblast stove, 8-tail gas induced draft fan, 9-coating line blower fan, 10-butterfly valve A, 11-butterfly valve B, 12-butterfly valve C, 13-butterfly valve D, 14-butterfly valve E, 15-butterfly valve F.
Embodiment
Be further described the utility model below in conjunction with accompanying drawing, protection domain of the present utility model is not limited to the following stated:
As shown in Figure 1, a kind of coating line heating system utilizing the high-temperature tail gas producing glass microballon, it comprises glass-beam forming furnace 1, tornado dust collector 2, glass microballon dries platform 3, pulsed sack cleaner 4, flue gas blower fan 5, automatic combustion machine 6, hotblast stove 7, tail gas induced draft fan 8 and coating line blower fan 9, the exit end of glass-beam forming furnace 1 is connected with the inlet end of tornado dust collector 2, the inlet end that exit end and the glass microballon of tornado dust collector 2 dry platform 3 is connected, the exit end that glass microballon dries platform 3 is connected with the inlet end of pulsed sack cleaner 4, the exit end of pulsed jet cloth filter 4 is connected with the inlet end of flue gas blower fan 5, the air outlet of flue gas blower fan 5 respectively with butterfly valve A10, butterfly valve C12, butterfly valve D13 is connected, butterfly valve B11, butterfly valve D13 is connected with the blast inlet of hotblast stove 7 respectively, and the afterbody of hotblast stove 7 is also provided with automatic combustion machine 6, and the blast inlet of tail gas induced draft fan 8 is connected with the air outlet of hotblast stove 7 and butterfly valve C12 respectively, the air outlet of tail gas induced draft fan 8 and butterfly valve E14, butterfly valve F15 is connected, and the blast inlet of coating line blower fan 9 is connected with butterfly valve E14.
Between described each parts, equal connection all adopts insulating pipe.
Described butterfly valve E14 is electric butterfly valve.
Described butterfly valve B11 place is cold wind import.
The utility model has following three kinds of mode of operation:
When shaping furnace exhaust gas heat >=coating line institute heat requirement, in this case, do not need hotblast stove additional heat, need to close butterfly valve A10, butterfly valve B11, butterfly valve D13 and butterfly valve F15, opened butterfly valve C12 and butterfly valve E14, the high-temperature tail gas of about 300-400 DEG C that glass-beam forming furnace 1 produces is dried the glass microballon after pickling on platform after tornado dust collector 2, the tail gas of out about 200 DEG C removes after residual dust through pulsed sack cleaner 4, through flue gas blower fan 5, butterfly valve C12, dispense tip blower fan 9 is arrived through tail gas induced draft fan 8, dispense tip blower fan 9 carries out supplementary new wind according to amount of heat.
When coating line institute heat requirement >=forming furnace tail gas heat quantity >=0, in this case, need to open hotblast stove and supplement a part of heat, close butterfly valve A10, butterfly valve C12 and butterfly valve F15, opened butterfly valve B11, butterfly valve D13 and butterfly valve E14.The high-temperature tail gas of about 300-400 DEG C that glass-beam forming furnace 1 produces is dried the glass microballon after pickling on platform after tornado dust collector 2, the tail gas of out about 200 DEG C removes after residual dust through pulsed sack cleaner 4, hotblast stove 7 is entered through flue gas blower fan 5, butterfly valve D13, open automatic combustion machine 6 simultaneously, determine to supplement new wind the need of by butterfly valve B11 according to the size of air quantity, tail gas through heating enters tail gas induced draft fan 8, arrive dispense tip blower fan 9 through piping, dispense tip blower fan 9 carries out supplementary new wind according to amount of heat.
When shaping furnace exhaust gas heat=0, in this case, dispense tip heat is provided by hotblast stove 7 completely.Close butterfly valve C12, butterfly valve D13, butterfly valve F15, opened butterfly valve B11, automatic combustion machine 6, freezing air enters hotblast stove 7 by butterfly valve B11, after heating, enters tail gas induced draft fan 8, arrive dispense tip blower fan 9 through piping, dispense tip blower fan 9 carries out supplementary new wind according to amount of heat.
Claims (3)
1. one kind utilizes the coating line heating system of the high-temperature tail gas producing glass microballon, it is characterized in that: it comprises glass-beam forming furnace (1), tornado dust collector (2), glass microballon dries platform (3), pulsed sack cleaner (4), flue gas blower fan (5), automatic combustion machine (6), hotblast stove (7), tail gas induced draft fan (8) and coating line blower fan (9), the exit end of glass-beam forming furnace (1) is connected with the inlet end of tornado dust collector (2), the inlet end that exit end and the glass microballon of tornado dust collector (2) dry platform (3) is connected, the exit end that glass microballon dries platform (3) is connected with the inlet end of pulsed sack cleaner (4), the exit end of pulsed jet cloth filter (4) is connected with the inlet end of flue gas blower fan (5), the air outlet of flue gas blower fan (5) respectively with butterfly valve A(10), butterfly valve C(12), butterfly valve D(13) be connected, butterfly valve B(11), butterfly valve D(13) be connected with the blast inlet of hotblast stove (7) respectively, the afterbody of hotblast stove (7) is also provided with automatic combustion machine (6), the blast inlet of tail gas induced draft fan (8) respectively with air outlet and the butterfly valve C(12 of hotblast stove (7)) be connected, the air outlet of tail gas induced draft fan (8) and butterfly valve E(14), butterfly valve F(15) be connected, blast inlet and the butterfly valve E(14 of coating line blower fan (9)) be connected.
2. a kind of coating line heating system utilizing the high-temperature tail gas producing glass microballon according to claim 1, is characterized in that: described butterfly valve E(14) be electric butterfly valve.
3. according to claim 1ly a kind ofly utilizing the coating line heating system of high-temperature tail gas of producing glass microballon, it is characterized in that: described butterfly valve B(11) place is cold wind import.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420458439.4U CN204151218U (en) | 2014-08-14 | 2014-08-14 | A kind of coating line heating system utilizing the high-temperature tail gas producing glass microballon |
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CN201420458439.4U CN204151218U (en) | 2014-08-14 | 2014-08-14 | A kind of coating line heating system utilizing the high-temperature tail gas producing glass microballon |
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CN204151218U true CN204151218U (en) | 2015-02-11 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110316975A (en) * | 2019-08-13 | 2019-10-11 | 延安城投光学材料有限公司 | A kind of high refractive index glass micro pearl surface processing device and the treatment process based on it |
-
2014
- 2014-08-14 CN CN201420458439.4U patent/CN204151218U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110316975A (en) * | 2019-08-13 | 2019-10-11 | 延安城投光学材料有限公司 | A kind of high refractive index glass micro pearl surface processing device and the treatment process based on it |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
TR01 | Transfer of patent right |
Effective date of registration: 20210421 Address after: Group 6 and 7, Zhongfeng village, Binlang Township, high tech Zone, Dazhou, Sichuan 610000 Patentee after: Cecep (Dazhou) new material Co.,Ltd. Address before: Sichuan Jintang Industrial Park, Zhao Zhen Jintang County of Chengdu City, Sichuan Province, Chengdu City, 610400 Patentee before: CHENGDU ZHONGJIENENG REFLECTIVE MATERIALS Co.,Ltd. |
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TR01 | Transfer of patent right |